Pathways of DNA double-strand break repair during the mammalian cell cycle.
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It is shown here that NHEJ-defective hamster cells (CHO mutant V3 cells) have strongly reduced repair in all cell cycle phases after 1 Gy of irradiation, and HR is particularly important in late S/G2, where both pathways contribute to repair and radioresistance.Abstract:
Little is known about the quantitative contributions of nonhomologous end joining (NHEJ) and homologous recombination (HR) to DNA double-strand break (DSB) repair in different cell cycle phases after physiologically relevant doses of ionizing radiation. Using immunofluorescence detection of -H2AX nuclear foci as a novel approach for monitoring the repair of DSBs, we show here that NHEJ-defective hamster cells (CHO mutant V3 cells) have strongly reduced repair in all cell cycle phases after 1 Gy of irradiation. In contrast, HR-defective CHO irs1SF cells have a minor repair defect in G1, greater impairment in S, and a substantial defect in late S/G2. Furthermore, the radiosensitivity of irs1SF cells is slight in G1 but dramatically higher in late S/G2, while V3 cells show high sensitivity throughout the cell cycle. These findings show that NHEJ is important in all cell cycle phases, while HR is particularly important in late S/G2, where both pathways contribute to repair and radioresistance. In contrast to DSBs produced by ionizing radiation, DSBs produced by the replication inhibitor aphidicolin are repaired entirely by HR. irs1SF, but not V3, cells show hypersensitivity to aphidicolin treatment. These data provide the first evaluation of the cell cycle-specific contributions of NHEJ and HR to the repair of radiation-induced versus replication-associated DSBs.read more
Citations
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ATM- and cell cycle-dependent regulation of ATR in response to DNA double-strand breaks
Ali Jazayeri,Jacob Falck,Claudia Lukas,Jiri Bartek,Graeme C. M. Smith,Jiri Lukas,Stephen P. Jackson +6 more
TL;DR: It is shown that ATM and the nuclease activity of meiotic recombination 11 are required for the processing of DNA double-strand breaks (DSBs) to generate the replication protein A (RPA)-coated ssDNA that is needed for ATR recruitment and the subsequent phosphorylation and activation of Chk1.
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γH2AX: a sensitive molecular marker of DNA damage and repair
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H2AX: the histone guardian of the genome.
TL;DR: A model in which chromatin restructuring mediated by H2AX phosphorylation serves to concentrate DNA repair/signaling factors and/or tether DNA ends together, which could explain the pleotropic phenotypes observed in its absence is suggested.
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Mechanisms of DNA damage, repair, and mutagenesis.
TL;DR: This introductory review will delineate mechanisms of DNA damage and the counteracting repair/tolerance pathways to provide insights into the molecular basis of genotoxicity in cells that lays the foundation for subsequent articles in this issue.
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Therapeutic genome editing: prospects and challenges
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References
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Journal ArticleDOI
Joining of correct and incorrect DNA double-strand break ends in normal human and ataxia telangiectasia fibroblasts
TL;DR: Induction of DSBs and joining of correct and incorrect break ends were further investigated in cells from a patient with the cancer‐prone disease ataxia telangiectasia (AT) and in heterozygous AT cells, finding identical induction rates and identical kinetics for joining correct ends following an 80‐Gy X‐ray exposure.
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Loss of S-phase-dependent radioresistance in irs-1 cells exposed to X-rays.
TL;DR: In general, irs-1 cells were maximally radiosensitive in phases of the cell cycle where V79 cells were radioresistant, and equally radiosensitive to V 79 cells when compared at mitosis, the most radiosensitive phase of the V79 cell cycle.
Journal ArticleDOI
Cytogenetic characterization of the ionizing radiation-sensitive Chinese hamster mutant irs1.
James D. Tucker,Nigel J. Jones,Nancy A. Allen,J. L. Minkler,Larry H. Thompson,Anthony V. Carrano +5 more
TL;DR: The results suggest that the defect in irs1 cells can manifest itself as misrepair or misreplication during all phases of the cell cycle and leads to a high incidence of chromatid exchanges and deletions.
Journal ArticleDOI
No dose-dependence of DNA double-strand break misrejoining following alpha-particle irradiation.
TL;DR: Investigating whether an explanation for the high effectiveness of densely ionizing radiation with regard to complex biological endpoints can be derived from measurements of radiation-induced double-strand break (DSB) misrejoining at doses for which chromosome aberration data are available found it feasible.
Journal ArticleDOI
Misrejoining of DNA double-strand breaks in primary and transformed human and rodent cells: a comparison between the HPRT region and other genomic locations.
Kai Rothkamm,Markus Löbrich +1 more
TL;DR: A comparison of the region Xq26 spanning the hypoxanthine guanine phosphoribosyl transferase locus with the region 21q21 revealed identical characteristics for the induction and repair of DSBs, suggesting that there are no large variations between Giemsa-light and GiemsA-dark chromosomal bands.
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